Experimental and Modeling Studies of Permanent Strains of Subgrade Soils
Publication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 135, Issue 10
Abstract
Mechanistic-empirical pavement design guide for flexible pavements as per the AASHTO design guide requires characterization of subgrade soils using the resilient modulus property. This property, however, does not fully account for the plastic or permanent strain or rutting of subgrade soils, which often distress the overlying pavements. Soils such as silts exhibit moderate to high resilient moduli properties but they still undergo large permanent deformations under repeated loading. This explains the fallacy in the current pavement material characterization practice. A comprehensive research study was performed to measure permanent deformation properties of subgrade soils by subjecting various soils under repeated cycles of deviatoric loads. This paper describes test procedure followed and results obtained on three soils including clay, silt, and sandy soils. The influence of compaction moisture content, confining pressure, and deviatoric stresses applied on the measured permanent deformations of all three soils are addressed. A four-parameter permanent strain model formulation as a function of stress states in soils and the number of loading cycles was used to model and analyze the present test results. The model constants of all three soils were first determined and these results were used to explain the effects of various soil properties on permanent deformations of soils. Validation studies were performed to address the adequacy of the formulated model to predict rutting or permanent strains in soils.
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References
AASHTO. (1993). Design of pavement structures, American Association of State Highway and Transportation Officials, Washington, D.C.
AASHTO. (2002). “Determining the resilient modulus of soils and aggregate materials.” Rep. No. T 307–99, AASHTO, Washington, D.C.
Guo, Z., Zhang, H., Cong, L. and Gao, Q. (2006). “Permanent deformation of subgrade soils.” Analysis of asphalt pavement materials and systems, ASCE, Reston Va.,156–169.
Korkiala, T. L., and Dawson, A. (2007). “Relating full-scale pavement rutting to laboratory permanent deformation testing.” Int. J. Pavement Eng., 8(1), 19–28.
Lentz, R. W., and Baladi, G. Y. (1981). “Constitutive equation for permanent strain of sand subjected to cyclic loading.” Transportation Research Record. 810, Transportation Research Board, Washington, D.C., 50–53.
Moghaddas-Nejad, F., and Small, J. C. (2003). “Resilient and permanent characteristics of reinforced granular material by repeated load triaxial tests.” Geotech. Test. J., 26(2), 152–166.
Mohammad, L. N., Puppala, A. J., and Alavilli, P. (1994). “Effect of strain measurements on resilient modulus of sands.” ASTM STP 1213, West Conshohocken, Pa., 202–221.
Monismith, C. L., Ogava, N., and Freeme, C. R. (1975). “Permanent deformation characteristics of subgrade soils due to repeated loading.” Transportation Research Record. 537, Transportation Research Board, Washington, D.C., 1–17.
Muhanna, A. S., Rahman, M. S., and Lambe, P. C. (1998). “Resilient modulus and permanent strain of subgrade soils.” Transportation Research Record. 1619, Transportation Research Board, Washington, D.C., 85–93.
Paute, J. L., Hornych, P., and Benaben, J. P. (1993). “Repeated load triaxial testing of granular materials in the French network of laboratories.” Proj. Euro. Sym. on Flexible Pavements, EUROFLEX, Lisbon, Portugal, 81–95.
Puppala, A. J., Chomtid, S., and Bhadriraju, V. (2005). “Evaluation of permanent strain potentials using repeated load triaxial test.” Transportation Research Board. 1913, Transportation Research Board, Washington, D.C., 86–98.
Puppala, A. J., Mohammad, L. N., and Allen, A. (1999). “Permanent deformation characterization of subgrade soils from RLT test.” J. Mater. Civ. Eng., 11(4), 274–282.
Thompson, M. R., and Neumann, D. (1993). “Rutting rate analyses of the AASHTO road test flexible pavements.” Transportation Research Record. 1384, Transportation Research Board, Washington, D.C., 36–48.
Ullditz, P. (1993). “Mathematical model for pavement performance under moving wheel load.” Transportation Research Record. 1384, Transportation Research Board, Washington, D.C., 94–99.
Information & Authors
Information
Published In
Journal of Geotechnical and Geoenvironmental Engineering
Volume 135 • Issue 10 • October 2009
Pages: 1379 - 1389
Copyright
© 2009 ASCE.
History
Received: Apr 9, 2008
Accepted: May 31, 2009
Published online: Jun 5, 2009
Published in print: Oct 2009
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